Add to ORKGDrive manufacturer migration to Insulated Gate Bipolar Transistor (IGBT) output devices demands a more careful selection of motors and load cables. IGBT drives have faster output voltage risetimes which have increased the dielectric voltage stress placed on the motor. Semiconductor risetime now has a greater influence on motor transient voltages, emphasizing the need to understand the reflected wave phenomenon and its system effects on both motors and cables. Issues and solutions relative to motor selection, cable selection and installation are outlined and discussed. Potential problems and solutions not commonly known, even among experienced drive users, are presented
The emergence of fast-switching wide-bandgap (GaN, SiC) power electronics devices has enabled motor ...
Active Gate Drives (AGDs) tailor the signal applied to the gates of power metal-oxide-semiconductor ...
Insulated gate bipolar transistors (IGBT) have evolved significantly and become exceedingly fast. To...
Abstract: Reflected wave transient voltages that result from fast IGBT voltage source inverters have...
This article studies the possibility of controlling the surge impedance of the electric motor in mot...
The proliferation of IGBT inverters in low voltage motors drives in recent years has manifested itse...
Graduation date: 2016Modern variable speed machine drive (VSMD) systems are used for a variety of pu...
Adjustable speed induction motor drives are used more and more often in industry, particularly as an...
Due to rapid developments of IGBT technology, switching time and frequency are dramatically increase...
In industrial variable speed drives, the supply of low voltage induction motors by IGBT-PWM inverter...
increased the energy efficiency, performance and controllability in the induction motor applications...
The More Electric Aircraft (MEA) concept has set tight constraints for power density and efficiency ...
Adjustable speed AC drives have become the preferred choice in many industrial applications where co...
Modern variable frequency drives (VFD) have become the foundation of industrial electric motor contr...
In SiC-based adjustable speed drives, power cables have similar behaviour to transmission lines due ...
The emergence of fast-switching wide-bandgap (GaN, SiC) power electronics devices has enabled motor ...
Active Gate Drives (AGDs) tailor the signal applied to the gates of power metal-oxide-semiconductor ...
Insulated gate bipolar transistors (IGBT) have evolved significantly and become exceedingly fast. To...
Abstract: Reflected wave transient voltages that result from fast IGBT voltage source inverters have...
This article studies the possibility of controlling the surge impedance of the electric motor in mot...
The proliferation of IGBT inverters in low voltage motors drives in recent years has manifested itse...
Graduation date: 2016Modern variable speed machine drive (VSMD) systems are used for a variety of pu...
Adjustable speed induction motor drives are used more and more often in industry, particularly as an...
Due to rapid developments of IGBT technology, switching time and frequency are dramatically increase...
In industrial variable speed drives, the supply of low voltage induction motors by IGBT-PWM inverter...
increased the energy efficiency, performance and controllability in the induction motor applications...
The More Electric Aircraft (MEA) concept has set tight constraints for power density and efficiency ...
Adjustable speed AC drives have become the preferred choice in many industrial applications where co...
Modern variable frequency drives (VFD) have become the foundation of industrial electric motor contr...
In SiC-based adjustable speed drives, power cables have similar behaviour to transmission lines due ...
The emergence of fast-switching wide-bandgap (GaN, SiC) power electronics devices has enabled motor ...
Active Gate Drives (AGDs) tailor the signal applied to the gates of power metal-oxide-semiconductor ...
Insulated gate bipolar transistors (IGBT) have evolved significantly and become exceedingly fast. To...