This paper presents the results of a test campaign meant to determine coupling paths into a laboratory test setup of typical power grid substation electronics. The devices were tested against conducted threats in a bulk current injection (BCI) setup and radiated threats inside a transverse electromagnetic (TEM) waveguide as well as with a near-field TEM horn antenna. The various excitation methods and different test setups offer the possibility to trace back the observed effects to coupling paths into the tested system. For frequencies below 300 MHz the dominating coupling path to the system under test (SUT) was determined to be the Ethernet cable connected to the telecontrol device. Above 800 MHz direct radiated coupling into the test devi...
The use of power lines as a communication channel for transferring data between communication device...
This paper presents effects of high-power electromagnetic environments on components of IT-networks....
The fast transition from the conventional electrical-energy infrastructures to the Smart Grid demand...
This paper presents the results of a test campaign with focus on identifying HPEM susceptibilities f...
For extended critical infrastructures such as the power grid, electromagnetic compatibility (EMC) te...
During the evolution of today's power grid to a Smart Grid it is expected that IP-based communicatio...
The electricity sector has been undergoing transformations towards the smart grid concept, which aim...
As an illustration of the threat of high power microwaves (HPM) to critical civil infrastructure we ...
The article presents the results of a study of the electromagnetic compatibility of SMART devices (S...
Electromagnetic Compatibility (EMC) is the ability of an equipment or system to function satisfactor...
This paper reports the results of two experimental campaigns aimed at studying the high-frequency re...
This paper reports the results of two experimental campaigns aimed at studying the high-frequency re...
Modern and future substations are aimed to be more interconnected, leveraging communication standard...
This PhD thesis addresses the threat posed to society by sources that can produce high power electro...
The high power electromagnetic pulses are generated and transmitted by conventional and non-conventi...
The use of power lines as a communication channel for transferring data between communication device...
This paper presents effects of high-power electromagnetic environments on components of IT-networks....
The fast transition from the conventional electrical-energy infrastructures to the Smart Grid demand...
This paper presents the results of a test campaign with focus on identifying HPEM susceptibilities f...
For extended critical infrastructures such as the power grid, electromagnetic compatibility (EMC) te...
During the evolution of today's power grid to a Smart Grid it is expected that IP-based communicatio...
The electricity sector has been undergoing transformations towards the smart grid concept, which aim...
As an illustration of the threat of high power microwaves (HPM) to critical civil infrastructure we ...
The article presents the results of a study of the electromagnetic compatibility of SMART devices (S...
Electromagnetic Compatibility (EMC) is the ability of an equipment or system to function satisfactor...
This paper reports the results of two experimental campaigns aimed at studying the high-frequency re...
This paper reports the results of two experimental campaigns aimed at studying the high-frequency re...
Modern and future substations are aimed to be more interconnected, leveraging communication standard...
This PhD thesis addresses the threat posed to society by sources that can produce high power electro...
The high power electromagnetic pulses are generated and transmitted by conventional and non-conventi...
The use of power lines as a communication channel for transferring data between communication device...
This paper presents effects of high-power electromagnetic environments on components of IT-networks....
The fast transition from the conventional electrical-energy infrastructures to the Smart Grid demand...