The susceptibility of MW-level IGBT power modules to critical gate voltage oscillations during short circuit events has been evidenced experimentally. This paper proposes a sensitivity analysis method to better understand the oscillating behavior dependence on different operating conditions (i.e., collector-emitter voltage, gate-emitter voltage and temperature). A study case on 1.7 kV/1 kA IGBT power modules is presented. The proposed study helps to understand the oscillation mechanism by revealing its relationship with different working conditions. Moreover, the study can be helpful to understand the oscillation phenomenon, as well as to further improve the device performance during short circuit
Power semiconductor devices are vulnerable to thermomechanical fatigue due to temperature cycling ca...
Abstruct- IGBT’s are available with short-circuit withstand times approaching those of bipolar trans...
Nowadays, the electric power conversion from one form to another is necessary and important in our e...
This paper uses a 6-kA/1.1-kV nondestructive testing system for the analysis of the short-circuit be...
This paper analyzes the evidence of critical gate voltage oscillations in 1.7 kV/1 kA Insulated-Gate...
The oscillation phenomenon of trench-type insulated gate bipolar transistors during short-circuit (S...
The efficient and flexible conversion of electrical energy is increasingly accomplished by megawatt ...
IEEE This paper proposes a novel health sensitive parameter, called the gate-emitter pre-threshold v...
Power electronics plays an important role in a wide range of applications in order to achieve high e...
The presented paper investigates the relationship between high frequency oscillations created in pow...
Insulated gate bipolar transistors (IGBT) have evolved significantly and become exceedingly fast. To...
In modern power electronic systems, the Insulated Gate Bipolar Transistor (IGBT) power modules are t...
As insulated gate bipolar transistors (IGBTs) have gained an important status in a wide range of app...
Parasitic turn-on can cause unintentional triggering of the IGBTs since the discharge current of the...
Like the widely-used semiconductor switch, Insulated Gate Bipolar Transistors (IGBTs) are subject to...
Power semiconductor devices are vulnerable to thermomechanical fatigue due to temperature cycling ca...
Abstruct- IGBT’s are available with short-circuit withstand times approaching those of bipolar trans...
Nowadays, the electric power conversion from one form to another is necessary and important in our e...
This paper uses a 6-kA/1.1-kV nondestructive testing system for the analysis of the short-circuit be...
This paper analyzes the evidence of critical gate voltage oscillations in 1.7 kV/1 kA Insulated-Gate...
The oscillation phenomenon of trench-type insulated gate bipolar transistors during short-circuit (S...
The efficient and flexible conversion of electrical energy is increasingly accomplished by megawatt ...
IEEE This paper proposes a novel health sensitive parameter, called the gate-emitter pre-threshold v...
Power electronics plays an important role in a wide range of applications in order to achieve high e...
The presented paper investigates the relationship between high frequency oscillations created in pow...
Insulated gate bipolar transistors (IGBT) have evolved significantly and become exceedingly fast. To...
In modern power electronic systems, the Insulated Gate Bipolar Transistor (IGBT) power modules are t...
As insulated gate bipolar transistors (IGBTs) have gained an important status in a wide range of app...
Parasitic turn-on can cause unintentional triggering of the IGBTs since the discharge current of the...
Like the widely-used semiconductor switch, Insulated Gate Bipolar Transistors (IGBTs) are subject to...
Power semiconductor devices are vulnerable to thermomechanical fatigue due to temperature cycling ca...
Abstruct- IGBT’s are available with short-circuit withstand times approaching those of bipolar trans...
Nowadays, the electric power conversion from one form to another is necessary and important in our e...