The need to correlate as accurately as possible Time to the power quality events pushes towards the necessity to develop circuits able to yield a time reference that is referable to International Time Standards. Moreover, the necessity to deploy distributed power quality monitoring systems requires these time references to be easy to disseminate, making them available on specific monitoring sites. In this paper, the possibility to obtain a time reference continuously traceable to a Cs133 atomic standard is proposed, by locking the Cesium-derived L1 GPS satellites carrier by means of a specifically designed GPS receiver. Such time reference would simply require visibility of one GPS satellite in order to be operative. In particular, the overall architecture of such receiver will be first outlined and then attention will be focused on the design and realization of the VCO which is one of its fundamental building blocks. Measurements carried out on a prototype of the proposed VCO show that its performances are adequate for the aim.
[1]
E. Piuzzi,et al.
Study of a New GPS-Carriers Based Time Reference with High Instantaneous Accuracy
,
2007,
2007 8th International Conference on Electronic Measurement and Instruments.
[2]
Pat Bodger,et al.
Power System Harmonics
,
2003
.
[3]
James B. Y. Tsui,et al.
Fundamentals of global positioning system receivers : a software approach
,
2004
.
[4]
F. Leccese,et al.
Power quality measurements in telecommunication exchanges
,
2008,
INTELEC 2008 - 2008 IEEE 30th International Telecommunications Energy Conference.
[5]
Michael S. Braasch,et al.
GPS receiver architectures and measurements
,
1999,
Proc. IEEE.
[6]
Neville R. Watson,et al.
Power System Quality Assessment
,
2000
.