News

Six guides for radio frequency and microwave measurements now available

Large Smartphone

EMPIR project develops best practice guides

The Project

The EMPIR Research Potential Project Development of RF and microwave metrology capability (15RPT01, RFMicrowave) ran from 2015 to 2019 with the aim of extending measurement capability in power measurements across Europe.

Research Potential Projects are a special kind of EURAMET Capacity Building project, supporting participating organisations to develop basic levels of metrological research expertise, in particular measurement research areas considered to be of national and regional priority.

With the help of the National Metrology institute of Switzerland, METAS, other European measurement institutes developed their skills in making the precise microwave measurements and electromagnetic compatibility (EMC) required for an integrated approach across Europe.

Six best practice guides available

Six best practice guides were developed in the project, and are now freely available for download from the project website. These guides will be especially useful for emerging national metrology institutes, accredited calibration laboratories and EMC test laboratories.


This EMPIR project is co-funded by the European Union's Horizon 2020 research and innovation programme and the EMPIR Participating States.
 

Want to hear more about EURAMET?
Sign up for EURAMET newsletters and other information
Follow us on LinkedIn and Twitter

Select your area of interest
Journal paper describing work of EMRP project is favourite from last 15 years
2021-05-11

Paper in journal Nature Physics is featured as one of the editors’ favourites from the journal’s 15- year lifetime more

New faster methods for measuring energy absorption from mobile phones
2021-05-06

EMPIR project has improved measurements for the rate at which energy is absorbed by the human body when using smartphones more

Machine learning and data analysis video tutorials available from EMPIR project
2021-05-04

Project on factory of the future is building calibration capabilities for advanced, digital-only industrial sensors more

Figure: a) A calculated back focal plane image with θ=70°, ϕ=345° and z0 = 60nm. b) A measured back focal plane image of an NV-center. From J. Christinck et al., Appl. Phys. B 126, 161 (2020). Copyright PTB, published with kind permission of PTB
EMPIR project contributes to European Metrology Network for Quantum Technologies
2021-04-29

Improving sources of single photons to accelerate quantum technology innovation more

EMPIR project gives first access to algorithms used for MR-based EPT
2021-04-27

Assessing new MRI technologies using quantitative methods for more accurate clinical diagnoses more

Page 1 of 170.