Add to ORKGThe DC current transducer (DCCT) and accompanying A/D converter determine the precision of a power converter in accelerator operation. In the LHC context this precision approaches 10-6 (1 ppm). Inside the DCCT a burden resistor is used to convert the current to an output voltage. The performance of this resistor is crucial for the accuracy, temperature behaviour, settling time and long-term drift of the DCCT. This paper reports on evaluations, a new parameter called “power coefficient ” (PC) and test results from some different types of resistors available on the market
A high-precision voltage buffer and a 10:1 resistive voltage divider have been constructed for use i...
This paper describes the selection and characterization of resistors for a 1000 kV HVDC divider. One...
The Large Hadron Collider (LHC) is CERN's next particle accelerator project, scheduled for commissio...
The DC current transducer (DCCT) and accompanying A/D converter determine the precision of a power c...
CERN's next generation particle accelerator, the large hadron collider (LHC) requires accurate curre...
The evaluation of high performance DCCT's to the ppm level has never been an easy task. With the LHC...
Power converters in the accelerator context are often required to deliver a performance that is unus...
The initial results from integration testing of the LHC magnet power converters revealed problems of...
The LHC circulating beam current measurement is provided by eight current transformers, i.e. two DC ...
The initial results from integration testing of the LHC magnet power converters revealed problems of...
A new DC current reference standard, named the PBC, has been developed for high-current power conver...
Since restarting at the end of 2009, the LHC has reached a new energy record in March 2010 with the ...
The magnet power converters for LHC were procured in three parts, power part, current transducers an...
The accurate measurement of power converter currents is essential to controlling and delivering stab...
The design of the latest CERN particle accelerator for high energy particle physics research, the La...
A high-precision voltage buffer and a 10:1 resistive voltage divider have been constructed for use i...
This paper describes the selection and characterization of resistors for a 1000 kV HVDC divider. One...
The Large Hadron Collider (LHC) is CERN's next particle accelerator project, scheduled for commissio...
The DC current transducer (DCCT) and accompanying A/D converter determine the precision of a power c...
CERN's next generation particle accelerator, the large hadron collider (LHC) requires accurate curre...
The evaluation of high performance DCCT's to the ppm level has never been an easy task. With the LHC...
Power converters in the accelerator context are often required to deliver a performance that is unus...
The initial results from integration testing of the LHC magnet power converters revealed problems of...
The LHC circulating beam current measurement is provided by eight current transformers, i.e. two DC ...
The initial results from integration testing of the LHC magnet power converters revealed problems of...
A new DC current reference standard, named the PBC, has been developed for high-current power conver...
Since restarting at the end of 2009, the LHC has reached a new energy record in March 2010 with the ...
The magnet power converters for LHC were procured in three parts, power part, current transducers an...
The accurate measurement of power converter currents is essential to controlling and delivering stab...
The design of the latest CERN particle accelerator for high energy particle physics research, the La...
A high-precision voltage buffer and a 10:1 resistive voltage divider have been constructed for use i...
This paper describes the selection and characterization of resistors for a 1000 kV HVDC divider. One...
The Large Hadron Collider (LHC) is CERN's next particle accelerator project, scheduled for commissio...