Add to ORKGModern ac-dc transfer equipments can operate up to 1 GHz at least. These equipments and the related ac-voltage measurements may be attractive for calibrating high frequency power sensors in term of ac-dc transfer difference instead of effective efficiency. Furthermore, below 30 MHz, the ac-voltage standard can be also used as powerful alternative and complement to the microcalorimeter technique for the realization of the RF power standard. In the paper experimental measurements and data analysis are presented that prove the previous assertions
An analogue testing standard IEEE 1149.4 is mainly targeted for low-frequency testing. The problem s...
The high frequency primary power standard is univocally realized by means of a coaxial microcalorim...
The supplementary comparisons of national standards of ratio error and phase displacement of AC volt...
Modern ac-dc transfer equipments can operate up to 1 GHz at least. These equipments and the relate...
INRiM’s primary AC-voltage standard is realized by means of a set of AC-DC Thermal Voltage Converte...
Below 10 MHz, the calibration of electric power sensors realized by means of microcalorimeter...
Abstract-A worldwide intercomparison is described cover-ing both ac voltage and ac current measureme...
Abstract − A high bandwidth power transducer, based on an inexpensive, commercially available, stand...
Electromagnetic power standard realized by means of the microcalorimetric technique fails below som...
RF power measurements at low levels are very useful, to evaluate operation of a system in all areas....
In this paper is discussed and derived an alternative method for nearby lower frequency electric fie...
Power supply designs are often overlooked as part of a high-frequency electronic system. A wide rang...
Radio frequency (RF) and microwave power is one of the key quantities in the framework of electromag...
A circuit of low frequency power measurement by differentially connected vacuo junctions is already ...
National Physical Laboratory (NPLI) India is the premier research and development center and the Nat...
An analogue testing standard IEEE 1149.4 is mainly targeted for low-frequency testing. The problem s...
The high frequency primary power standard is univocally realized by means of a coaxial microcalorim...
The supplementary comparisons of national standards of ratio error and phase displacement of AC volt...
Modern ac-dc transfer equipments can operate up to 1 GHz at least. These equipments and the relate...
INRiM’s primary AC-voltage standard is realized by means of a set of AC-DC Thermal Voltage Converte...
Below 10 MHz, the calibration of electric power sensors realized by means of microcalorimeter...
Abstract-A worldwide intercomparison is described cover-ing both ac voltage and ac current measureme...
Abstract − A high bandwidth power transducer, based on an inexpensive, commercially available, stand...
Electromagnetic power standard realized by means of the microcalorimetric technique fails below som...
RF power measurements at low levels are very useful, to evaluate operation of a system in all areas....
In this paper is discussed and derived an alternative method for nearby lower frequency electric fie...
Power supply designs are often overlooked as part of a high-frequency electronic system. A wide rang...
Radio frequency (RF) and microwave power is one of the key quantities in the framework of electromag...
A circuit of low frequency power measurement by differentially connected vacuo junctions is already ...
National Physical Laboratory (NPLI) India is the premier research and development center and the Nat...
An analogue testing standard IEEE 1149.4 is mainly targeted for low-frequency testing. The problem s...
The high frequency primary power standard is univocally realized by means of a coaxial microcalorim...
The supplementary comparisons of national standards of ratio error and phase displacement of AC volt...