Many of the solutions to integrate PV in buildings have the special
feature of placing the generator in transit areas where people can
have access to inside zones of the installation (metalworks, modules,
junction boxes, etc.). In these cases, if we also need a higher level
of generation voltage, due to the generator size and ef®ciency reasons,
the risk of electrical damage to people rises due to imprudences
or installation faults. In this paper, we present a system of people
protection designed and installed in a PV generator integrated in
a parking and building area at JaeÂn University Campus. This PV generator
has a high risk level of electric shock to humans due to its location
and voltage generator level (range 500 VDC). We include both the
theoretical design of the protection subsystem and also the experimental
tests and measures to check its functionality and security level
reached in the installation.
%0 Journal Article
%1 Gomez-Vidal.Almonacid.ea2001
%A Gómez-Vidal, P.
%A Almonacid, G.
%A Pérez, P. J.
%A Aguilera, J.
%D 2001
%J Progress in Photovoltaics: Research and Applications
%K control earth electrical grid, insulation protection,
%P 57--67
%T Measures Used to Protect People Exposed to a PV Generator: ?Univer
Project?
%V 9
%X Many of the solutions to integrate PV in buildings have the special
feature of placing the generator in transit areas where people can
have access to inside zones of the installation (metalworks, modules,
junction boxes, etc.). In these cases, if we also need a higher level
of generation voltage, due to the generator size and ef®ciency reasons,
the risk of electrical damage to people rises due to imprudences
or installation faults. In this paper, we present a system of people
protection designed and installed in a PV generator integrated in
a parking and building area at JaeÂn University Campus. This PV generator
has a high risk level of electric shock to humans due to its location
and voltage generator level (range 500 VDC). We include both the
theoretical design of the protection subsystem and also the experimental
tests and measures to check its functionality and security level
reached in the installation.
@article{Gomez-Vidal.Almonacid.ea2001,
abstract = {Many of the solutions to integrate PV in buildings have the special
feature of placing the generator in transit areas where people can
have access to inside zones of the installation (metalworks, modules,
junction boxes, etc.). In these cases, if we also need a higher level
of generation voltage, due to the generator size and ef®ciency reasons,
the risk of electrical damage to people rises due to imprudences
or installation faults. In this paper, we present a system of people
protection designed and installed in a PV generator integrated in
a parking and building area at JaeÂn University Campus. This PV generator
has a high risk level of electric shock to humans due to its location
and voltage generator level (range 500 VDC). We include both the
theoretical design of the protection subsystem and also the experimental
tests and measures to check its functionality and security level
reached in the installation.},
added-at = {2011-09-01T13:26:03.000+0200},
author = {Gómez-Vidal, P. and Almonacid, G. and Pérez, P. J. and Aguilera, J.},
biburl = {https://www.bibsonomy.org/bibtex/2844782deb1e8f538e1824a11e02abf51/procomun},
file = {Gomez-Vidal.Almonacid.ea2001.pdf:Gomez-Vidal.Almonacid.ea2001.pdf:PDF},
interhash = {cc8c42ffb391fe6caa787da902c2369c},
intrahash = {844782deb1e8f538e1824a11e02abf51},
journal = {Progress in Photovoltaics: Research and Applications},
keywords = {control earth electrical grid, insulation protection,},
owner = {oscar},
pages = {57--67},
refid = {Gómez-Vidal.Almonacid.ea2001},
timestamp = {2011-09-02T08:25:25.000+0200},
title = {Measures Used to Protect People Exposed to a {PV} Generator: ?Univer
Project?},
volume = 9,
year = 2001
}