Puma
SUPERIOR PERFORMANCE AND RELIABILITY
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Puma
PUMA RCM-450-460-SBML
BIFACIAL MONO CRYSTALINE DOULE GLASS MODULE
SHINGLED CELL TECHNOLOGY
450/455/460 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-630-655-SDMT
BIFACIAL MONO CRYSTALINE DOULE GLASS MODULE
SHINGLED CELL TECHNOLOGY
630/635/640/645/650/655 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-375-400-SMK
MONO CRYSTALLINE MODULE
SHINGLED CELL TECHNOLOGY
375/380/385/390/395/400 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-375-400-SMK
MONO CRYSTALLINE MODULE
SHINGLED CELL TECHNOLOGY
375/380/385/390/395/400 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-455-475-SML
MONO CRYSTALLINE MODULE
SHINGLED CELL TECHNOLOGY
455/460/465/670/475 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-530-555-SMS
MONO CRYSTALLINE MODULE
SHINGLED CELL TECHNOLOGY
530/535/540/545/550/555
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-645-670-SDMT2
BIFACIAL MONO CRYSTALLINE DOUBLE GLASS MODULE
SHINGLED CELL TECHNOLOGY
645/650/655/660/665/670 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.
PUMA RCM-470-490-SMA
MONO CRYSTALLINE MODULE
SHINGLED CELL TECHNOLOGY
470/475/480/485/490 Watts
Shingled technology eliminates traditional ribbon connection with shingles connected in series. By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced – resulting in exceptional efficiency and reliability over standard interconnections. Puma modules are based on the shingled technology which allow a higher cells density than standard half-cut modules.