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TSM-450DE17M

Trina TSM-DE21 655W

  • Peak Power Watts-PMAX (Wp)* : 650
  • Power Tolerance-PMAX (W) : 0 ~ +5
  • Maximum Power Voltage-VMPP (V) : 37.6
  • Maximum Power Current-IMPP (A) : 17.43
  • Open Circuit Voltage-VOC (V) : 45.5
  • Short Circuit Current-ISC (A) : 18.48
  • Length(mm) : 1 303
  • Width(mm) : 33
  • Height(mm) : 2 384
  • Weight(Kg) : 33.3


Trina TSM-DE21 655W

Based on the 210mm large-size silicon wafer and monocrystalline PERC cell, the Vertex comes with several innovative design features allowing high power output up to 670W. Excellent temperature coefficient and low irradiation performance brings the greater power. Furthermore, benefit from square mono cells and high-density encapsulation technology, the efficiency of Vertex can reach up to 21.6%.

Low-voltage, Higher Module String Power Output, Improvement in Power Output of a Single Module String by More Than 34%

Based on the aim of improving the system efficiency and reducing the balance-of-system costs, Trina Solar’s research and development team has introduced an innovative design of low-voltage and higher module string power output. Typically, Trina can interconnect 28 Vertex modules into a string. Compared with other reference module, a single module string can achieve up to a 34% power increase, 0.012-0.014 BOS reduction, 1.2%-1.5% LCOE reduction, indicating an innovative technological breakthrough and ushering in a new era of 600W+.

High Reliability

Trina Solar optimized the frame design of the 210mm large module, which allows for better load performance and suits for various scenarios. In regards of module delivery, Trina Solar pioneers in proposing the innovative total delivery solution covering all aspects from packaging, logistics, loading and unloading to installation. The vertical placement packaging concept of modules maximizes the space utilization of container, and use of innovative assistant tool is easy for unpackaging and could prevent modules from falling down. Trina Solar always takes a customer-oriented approach and leads the industry in continuous breakthrough innovation, which is an important force in promoting the rapid development of the PV industry.

High customer value

  • Lower LCOE (Levelized Cost Of Energy), reduced BOS (Balance of System) cost, shorter payback time
  • Lowest guaranteed 1rst year and annual degradation;
  • Designed for compatibility with existing mainstream system components

High power up to 670W

  • Up to 21.6% module efficiency with high density interconnect technology
  • Multi-busbar technology for better light trapping effect, lower series resistance and improved current collection

High reliability

  • Minimized micro-cracks with innovative non-destructive cutting technology
  • Ensured PID resistance through cell process and module material control
  • Resistant to harsh environments such as salt, ammonia, sand, high temperature and high humidity areas
  • Mechanical performance up to 5400 Pa positive load and 2400 Pa negative load

High energy yield

  • Excellent IAM (Incident Angle Modifier) and low irradiation performance, validated by 3rd party certifications
  • The unique design provides optimized energy production under inter-row shading conditions
  • Lower temperature coefficient (-0.34%) and operating temperature
TSM-450DE17M

Trina TSM-DE21 655W

  • Peak Power Watts-PMAX (Wp)* : 650
  • Power Tolerance-PMAX (W) : 0 ~ +5
  • Maximum Power Voltage-VMPP (V) : 37.6
  • Maximum Power Current-IMPP (A) : 17.43
  • Open Circuit Voltage-VOC (V) : 45.5
  • Short Circuit Current-ISC (A) : 18.48
  • Length(mm) : 1 303
  • Width(mm) : 33
  • Height(mm) : 2 384
  • Weight(Kg) : 33.3


Trina TSM-DE21 655W

Based on the 210mm large-size silicon wafer and monocrystalline PERC cell, the Vertex comes with several innovative design features allowing high power output up to 670W. Excellent temperature coefficient and low irradiation performance brings the greater power. Furthermore, benefit from square mono cells and high-density encapsulation technology, the efficiency of Vertex can reach up to 21.6%.

Low-voltage, Higher Module String Power Output, Improvement in Power Output of a Single Module String by More Than 34%

Based on the aim of improving the system efficiency and reducing the balance-of-system costs, Trina Solar’s research and development team has introduced an innovative design of low-voltage and higher module string power output. Typically, Trina can interconnect 28 Vertex modules into a string. Compared with other reference module, a single module string can achieve up to a 34% power increase, 0.012-0.014 BOS reduction, 1.2%-1.5% LCOE reduction, indicating an innovative technological breakthrough and ushering in a new era of 600W+.

High Reliability

Trina Solar optimized the frame design of the 210mm large module, which allows for better load performance and suits for various scenarios. In regards of module delivery, Trina Solar pioneers in proposing the innovative total delivery solution covering all aspects from packaging, logistics, loading and unloading to installation. The vertical placement packaging concept of modules maximizes the space utilization of container, and use of innovative assistant tool is easy for unpackaging and could prevent modules from falling down. Trina Solar always takes a customer-oriented approach and leads the industry in continuous breakthrough innovation, which is an important force in promoting the rapid development of the PV industry.

High customer value

  • Lower LCOE (Levelized Cost Of Energy), reduced BOS (Balance of System) cost, shorter payback time
  • Lowest guaranteed 1rst year and annual degradation;
  • Designed for compatibility with existing mainstream system components

High power up to 670W

  • Up to 21.6% module efficiency with high density interconnect technology
  • Multi-busbar technology for better light trapping effect, lower series resistance and improved current collection

High reliability

  • Minimized micro-cracks with innovative non-destructive cutting technology
  • Ensured PID resistance through cell process and module material control
  • Resistant to harsh environments such as salt, ammonia, sand, high temperature and high humidity areas
  • Mechanical performance up to 5400 Pa positive load and 2400 Pa negative load

High energy yield

  • Excellent IAM (Incident Angle Modifier) and low irradiation performance, validated by 3rd party certifications
  • The unique design provides optimized energy production under inter-row shading conditions
  • Lower temperature coefficient (-0.34%) and operating temperature

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