JA 440W N-Type Bifacial Glas-Glas All Black TS
Diese Module werden mit der neuesten MBB n-Typ Solarzelle und Halbzellenkonfiguration betrieben und haben eine höhere Ausgangsleistung, eine geringere LID, eine bessere Reaktion auf schwache Beleuchtung und einen besseren Temperaturkoeffizienten.
Höhere Stromerzeugung, bessere LCOE
Bessere Reaktion auf schwache Beleuchtungsstärke
Besserer Temperaturkoeffizient
25 Jahre Produktgarantie
30 Jahre Garantie auf die lineare Leistungsabgabe
N-Type, Bifacial, Glas-Glas, Komplett Schwarz
JA 440W N-Type Bifacial Glas-Glas All Black TS
The rated electrical characteristics, lsc is within +/- 5 % and Voc is within +/- 3 % of measured values at Standard Test Conditions, but for the Pmax, it is within +/- 3%. Standard Test Conditions: 1000W/m2 lrradiance, 25 C Gell Temperature and 1.5 Air Mass.
Under normal conditions, the photovoltaic modules may experience conditions that produce more current and/or voltage than reported at Standard Test Conditions. Accordingly, the values of short circuit current, lsc, and open circuit voltage, Voc, marked on modules should be multiplied by a factor of 1.25 when determining component voltage ratings, conductor capacities, fusing sizes, and size of controls connected to the module output.
Voltages are additive when modules are connected directly in series, and modules currents are additive when modules are connect ed directly in parallel, as illustrated in Figure 4.
Modules with different electrical characteristics must not be connected directly in series.
The maximum number of modules that can be connected in a series string must be calculated in accordance with applicable regulations in such a way that the specified maximum system voltage (The maximum system voltage of JA Solar Modules is DC 1500V according to the safety appraisal of the IEC61730.) of the modules and all other electrical DC components will not be exceeded in open-circuit operation at the lowest temperature expected at the PV system location.
Correction factor for the open-circuit voltage can be calculated based on the following formula: Cvoc=1-ßvocx(25-T). T is the lowest expected ambient temperature at the system location. ß(%/ C) is the temperature coefficient of the selected module Voc (refer to corresponding datasheet).
An appropriately rated over-current protection device must be used when the reverse current could exceed the value of the maximum fuse rating of the modules. An over-current protection device is required for each series string if more than two series strings are connected in parallel, in Figure 4.
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