Instructions / Assembly
Trina ALLMAX
7. ELECTRICAL CONFIGURATION
Photovoltaic (electric) systems operate automatically and require very little day
The solar array generates DC electricity whenever light falls on it similarly the inverter automatically
turns ON as soon as there is
sufficient energy from the solar array to efficiently convert this into grid.
*Caution:
•
The module is rated to operate at potentially lethal DC voltages which have the potential can cause
severe electrical shock, arcing and fire hazards. Whilst some solar
Solar, are certified to operate up to 1000V DC (For TSM
check the module label to confirm the actual rating of your product before making connections.
•
It is recommended to use a suitab
disconnecting the connectors.
7.1 FUSING
•
When fuses are fitted they should be rated for the maximum DC voltage and connected in each,
non-
grounded pole of the array (i.e. if the system is
in both the positive and negative poles).
•
The maximum rating of a fuse connected in series with an array string is typically 15A but the actual
module specific rating can be found on the product label and in
•
This fuse rating value also corresponds to the maximum reverse current that a module can
withstand (when one string is shaded then the other parallel strings of modules will be loaded by
the shaded string and current will flow) and
7.2 INVERTER SELETION AND COMPATIBILITY
•
When installed in systems governed by IEC regulations, Trina Solar modules normally do not need
to be electronically connected to earth and therefore can be oper
galvanically isolated (with transformer) and transformerless inverters.
•
Potential Induced Degradation (PID) is sometimes observed in PV modules due to a combination of
high humidity, high temperature and high voltage. PID is most
following conditions:
a)
Installations in the warm and humid climates
b)
Installation close to a source of continual moisture, such as bodies of water
•
To reduce the risk of PID, we strongly suggest that modules feature Trina Solar’s Anti
technology, which
can be applied to any Trina product. Alternatively, we recommend the use of an inverter that
includes a transformer as well as proper grounding of
•
Choose inverters with isolation transformers in hot and wet areas (such as shores, wetlands), to
ensure proper module function under positive voltage.
SP-1000
The Solar PaQ
Trina ALLMAX
M Plus 60 Cell 295 watt
UPC: 861150002609
Photovoltaic (electric) systems operate automatically and require very little day
-
to
The solar array generates DC electricity whenever light falls on it similarly the inverter automatically
sufficient energy from the solar array to efficiently convert this into grid.
The module is rated to operate at potentially lethal DC voltages which have the potential can cause
severe electrical shock, arcing and fire hazards. Whilst some solar
modules, manufactured by Trina
Solar, are certified to operate up to 1000V DC (For TSM
-
PE05A.**,PE14A.**, to 1500V DC) always
check the module label to confirm the actual rating of your product before making connections.
It is recommended to use a suitab
ly rated isolator (DC switch) to interrupt the current flow before
When fuses are fitted they should be rated for the maximum DC voltage and connected in each,
grounded pole of the array (i.e. if the system is
not grounded then fuses should be connected
in both the positive and negative poles).
The maximum rating of a fuse connected in series with an array string is typically 15A but the actual
module specific rating can be found on the product label and in
the product datasheet.
This fuse rating value also corresponds to the maximum reverse current that a module can
withstand (when one string is shaded then the other parallel strings of modules will be loaded by
the shaded string and current will flow) and
therefore impacts the number of strings in parallel.
7.2 INVERTER SELETION AND COMPATIBILITY
When installed in systems governed by IEC regulations, Trina Solar modules normally do not need
to be electronically connected to earth and therefore can be oper
ated together with either
galvanically isolated (with transformer) and transformerless inverters.
Potential Induced Degradation (PID) is sometimes observed in PV modules due to a combination of
high humidity, high temperature and high voltage. PID is most
likely to cause degradation under the
Installations in the warm and humid climates
Installation close to a source of continual moisture, such as bodies of water
To reduce the risk of PID, we strongly suggest that modules feature Trina Solar’s Anti
can be applied to any Trina product. Alternatively, we recommend the use of an inverter that
includes a transformer as well as proper grounding of
the negative DC leg of the PV array.
Choose inverters with isolation transformers in hot and wet areas (such as shores, wetlands), to
ensure proper module function under positive voltage.
to
-day supervision.
The solar array generates DC electricity whenever light falls on it similarly the inverter automatically
sufficient energy from the solar array to efficiently convert this into grid.
The module is rated to operate at potentially lethal DC voltages which have the potential can cause
modules, manufactured by Trina
PE05A.**,PE14A.**, to 1500V DC) always
check the module label to confirm the actual rating of your product before making connections.
ly rated isolator (DC switch) to interrupt the current flow before
When fuses are fitted they should be rated for the maximum DC voltage and connected in each,
not grounded then fuses should be connected
The maximum rating of a fuse connected in series with an array string is typically 15A but the actual
the product datasheet.
This fuse rating value also corresponds to the maximum reverse current that a module can
withstand (when one string is shaded then the other parallel strings of modules will be loaded by
therefore impacts the number of strings in parallel.
When installed in systems governed by IEC regulations, Trina Solar modules normally do not need
ated together with either
Potential Induced Degradation (PID) is sometimes observed in PV modules due to a combination of
likely to cause degradation under the
To reduce the risk of PID, we strongly suggest that modules feature Trina Solar’s Anti
-PID
can be applied to any Trina product. Alternatively, we recommend the use of an inverter that
the negative DC leg of the PV array.
Choose inverters with isolation transformers in hot and wet areas (such as shores, wetlands), to