In cascaded H-bridge multilevel inverter, a variable frequency inverted sine PWM technique is modeled for hybrid electric vehicles. It has a particular advantage of increasing power which is achieved using series conn...In cascaded H-bridge multilevel inverter, a variable frequency inverted sine PWM technique is modeled for hybrid electric vehicles. It has a particular advantage of increasing power which is achieved using series connection of H-bridge and also this topology is capable to produce superior spectral quality with considerable improvement of fundamental voltage. The variable frequency inverted sine PWM technique produces lesser torque ripple and enhances the fundamental output voltage mainly at lower modulation index ranges. The topologies of multilevel inverter are flying capacitor, diode clamped and cascaded inverter. In the paper, we will discuss about the cascaded multilevel inverter based on inverted sine PWM technique. The two switching strategies widely used to control multilevel inverters are constant frequency inverted sine PWM (CF-ISPWM) and variable frequency inverted sine PWM (VF-ISPWM). This implies that switch utilization substantially reduces 32.35% of the constant frequency inverted sine PWM switching technique. The performance of the technique is validated in terms of Total Harmonic Distortion (THD) and Torque ripple which significantly reduces when compared to constant frequency ISPWM. The analysis of conventional triangular PWM inverter and inverted sine PWM inverter using constant and variable switching scheme is done in MATLAB Simulink and verified experimentally by FPGA Spartan 3E processor.展开更多
A new model of roving frame FA467, which uses four frequency inverters to replace the complex mechanical transmission, is discussed. A Neuron-PID is designed to reduce the effect of various parametric variations such ...A new model of roving frame FA467, which uses four frequency inverters to replace the complex mechanical transmission, is discussed. A Neuron-PID is designed to reduce the effect of various parametric variations such as load inertia. To ensure the constant spinning tension all over the spinning process, a feedforward controller using iterative learning control algorithm is desigend to avoid disturbances caused by changes of temperature, humidity and so on. The simulation result is shown to illustrate the effectiveness of the proposed algorithm, and now the roving frame FA467 has been developed successfully.展开更多
This paper deals with a combined test rig for a traction system in the laboratory environment.An experimental system was designed and implemented to verify the performance of the traction system for a metro train.For ...This paper deals with a combined test rig for a traction system in the laboratory environment.An experimental system was designed and implemented to verify the performance of the traction system for a metro train.For a highly accurate control of the system,a hybrid control algorithm combining vector control and slip frequency control was applied to control the traction inverter.The design method of the flywheels,which represent the equivalent model of the train moment inertia,was elaborated.A train runtime diagnosis system was completed by adopting the multifunction vehicle bus(MVB) protocol.The dynamic performance of the metro power traction system was emulated under the control of the train runtime diagnosis system.Using the combined test rig,the performances of the traction system in traction,braking,temperature rise,etc.,were verified through traction and breaking experiments.展开更多
An advanced cell structure and lifetime control technology has enhanced on-resistance and reverse recovery performance of power MOSFET (metal oxide semiconductor field-effect transistor) simultaneously. This paper i...An advanced cell structure and lifetime control technology has enhanced on-resistance and reverse recovery performance of power MOSFET (metal oxide semiconductor field-effect transistor) simultaneously. This paper introduces a newly developed planar MOSFET--UniFETTM Ⅱ MOSFET--with highly improved body diode characteristics, and presents its performance and effectiveness. UniFET II MOSFET is divided into normal FET(field effect transistor), FRFET (fast recovery field effect transistor), and Ultra FRFET MOSFETs according to the concentration of lifetime control, and their reverse recovery times are about 70%, 25%, and 15% of that of a conventional MOSFET, respectively. To verify the performance and effectiveness of the new MOSFET, an experiment using a 150 W HID (high intensity discharge) lamp ballast that includes a mixed frequency inverter was implemented. As a result, it was verified that two UniFET Ⅱ MOSFETs can replace two conventional MOSFEs and four additional FRDs (fast recovery diodes) without MOSFET failure.展开更多
文摘In cascaded H-bridge multilevel inverter, a variable frequency inverted sine PWM technique is modeled for hybrid electric vehicles. It has a particular advantage of increasing power which is achieved using series connection of H-bridge and also this topology is capable to produce superior spectral quality with considerable improvement of fundamental voltage. The variable frequency inverted sine PWM technique produces lesser torque ripple and enhances the fundamental output voltage mainly at lower modulation index ranges. The topologies of multilevel inverter are flying capacitor, diode clamped and cascaded inverter. In the paper, we will discuss about the cascaded multilevel inverter based on inverted sine PWM technique. The two switching strategies widely used to control multilevel inverters are constant frequency inverted sine PWM (CF-ISPWM) and variable frequency inverted sine PWM (VF-ISPWM). This implies that switch utilization substantially reduces 32.35% of the constant frequency inverted sine PWM switching technique. The performance of the technique is validated in terms of Total Harmonic Distortion (THD) and Torque ripple which significantly reduces when compared to constant frequency ISPWM. The analysis of conventional triangular PWM inverter and inverted sine PWM inverter using constant and variable switching scheme is done in MATLAB Simulink and verified experimentally by FPGA Spartan 3E processor.
文摘A new model of roving frame FA467, which uses four frequency inverters to replace the complex mechanical transmission, is discussed. A Neuron-PID is designed to reduce the effect of various parametric variations such as load inertia. To ensure the constant spinning tension all over the spinning process, a feedforward controller using iterative learning control algorithm is desigend to avoid disturbances caused by changes of temperature, humidity and so on. The simulation result is shown to illustrate the effectiveness of the proposed algorithm, and now the roving frame FA467 has been developed successfully.
基金supported by the Innovation Funds for Technology Based Firms (09C26214301971)
文摘This paper deals with a combined test rig for a traction system in the laboratory environment.An experimental system was designed and implemented to verify the performance of the traction system for a metro train.For a highly accurate control of the system,a hybrid control algorithm combining vector control and slip frequency control was applied to control the traction inverter.The design method of the flywheels,which represent the equivalent model of the train moment inertia,was elaborated.A train runtime diagnosis system was completed by adopting the multifunction vehicle bus(MVB) protocol.The dynamic performance of the metro power traction system was emulated under the control of the train runtime diagnosis system.Using the combined test rig,the performances of the traction system in traction,braking,temperature rise,etc.,were verified through traction and breaking experiments.
文摘An advanced cell structure and lifetime control technology has enhanced on-resistance and reverse recovery performance of power MOSFET (metal oxide semiconductor field-effect transistor) simultaneously. This paper introduces a newly developed planar MOSFET--UniFETTM Ⅱ MOSFET--with highly improved body diode characteristics, and presents its performance and effectiveness. UniFET II MOSFET is divided into normal FET(field effect transistor), FRFET (fast recovery field effect transistor), and Ultra FRFET MOSFETs according to the concentration of lifetime control, and their reverse recovery times are about 70%, 25%, and 15% of that of a conventional MOSFET, respectively. To verify the performance and effectiveness of the new MOSFET, an experiment using a 150 W HID (high intensity discharge) lamp ballast that includes a mixed frequency inverter was implemented. As a result, it was verified that two UniFET Ⅱ MOSFETs can replace two conventional MOSFEs and four additional FRDs (fast recovery diodes) without MOSFET failure.
