Add to ORKGCommon Mode Transient Immunity (CMTI) is one of the most important key parameters of an isolator. CMTI describes the ability of an isolation barrier to withstand fast common mode transients applied between two isolated circuits and thus to maintain the system integrity. To measure the CMTI, very fast voltage changes between the two isolated circuit grounds must be generated. This paper presents a novel method to generate the transients and measure the CMTI. A DC-DC converter is used with a high voltage switch in addition to an appropriate regulation circuit using only passive elements to generate the desired voltage level and slope. The method was implemented on an evaluation board to evaluate a few commercial digital isolators....
Galvanically isolated voltage measurements are becoming increasingly important for the characterizat...
A new methodology for quantifying the effectiveness of CDM protection circuits and CDM robustness of...
AbstractThis paper describes a new way of using cMUT technology: galvanic isolation for power electr...
The increasing slew rate of modern power switches can increase the efficiency and reduce the size of...
Testing and debugging of immunity issues is challenging in part because it is not known which compon...
Determining the components or coupling paths responsible for soft failures during transient testing ...
The Conventional offline switched Mode Power supply (SMPS) and Near Unity Power Factor Converters (N...
Capacitive coupling is a well-established principle in isolated signalling. A major challenge esp. i...
The use of differential voltage measurements is widely used in EIT instruments. Instrumentation amp...
International audienceWide bandgap power switching device technologies earned immense superiority in...
An Industrial-Power-Converter-System (IPCS) is a system made up of several power converters, such as...
A new methodology for evaluating the effectiveness of CDM protection is presented. VFTLP measurement...
Determining the components or coupling path responsible for soft failures during transient testing i...
The Universal Transducer Interface (UTI) is a mass-produced interface circuit which can realize the ...
Electromagnetic compatibility (EMC) is concerned with the generation, transmission and reception of ...
Galvanically isolated voltage measurements are becoming increasingly important for the characterizat...
A new methodology for quantifying the effectiveness of CDM protection circuits and CDM robustness of...
AbstractThis paper describes a new way of using cMUT technology: galvanic isolation for power electr...
The increasing slew rate of modern power switches can increase the efficiency and reduce the size of...
Testing and debugging of immunity issues is challenging in part because it is not known which compon...
Determining the components or coupling paths responsible for soft failures during transient testing ...
The Conventional offline switched Mode Power supply (SMPS) and Near Unity Power Factor Converters (N...
Capacitive coupling is a well-established principle in isolated signalling. A major challenge esp. i...
The use of differential voltage measurements is widely used in EIT instruments. Instrumentation amp...
International audienceWide bandgap power switching device technologies earned immense superiority in...
An Industrial-Power-Converter-System (IPCS) is a system made up of several power converters, such as...
A new methodology for evaluating the effectiveness of CDM protection is presented. VFTLP measurement...
Determining the components or coupling path responsible for soft failures during transient testing i...
The Universal Transducer Interface (UTI) is a mass-produced interface circuit which can realize the ...
Electromagnetic compatibility (EMC) is concerned with the generation, transmission and reception of ...
Galvanically isolated voltage measurements are becoming increasingly important for the characterizat...
A new methodology for quantifying the effectiveness of CDM protection circuits and CDM robustness of...
AbstractThis paper describes a new way of using cMUT technology: galvanic isolation for power electr...