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TSM-450DE17M

Trina TSM-DE17M(II) 455W

  • Peak Power Watts-PMAX (Wp)* : 455
  • Power Output Tolerance-PMAX (W) : 0 ~ +5
  • Maximum Power Voltage-VMPP (V) : 41.2
  • Maximum Power Current-IMPP (A) : 11.06
  • Open Circuit Voltage-VOC (V) : 49.8
  • Short Circuit Current-ISC (A) : 11.61
  • Length(mm) : 1 040
  • Width(mm) : 35
  • Height(mm) : 2 102
  • Weight(Kg) : 24

Trina TSM-DE17M(II) 455W

The Tallmax M product adopts half-cut cell technology. With lower heat and lower working temperature, half-cut cells can increase the power generation per watt. Since half-cut cells reduce internal loss, the working temperature of the module and the junction box declines, thus greatly reducing the probability of hotspots and the damage risk of the whole module.

Based on the special parallel-serial structure, half-cut modules are longitudinally arranged and can thus reduce the loss of generation capacity caused by shading.

High Reliability

The Tallmax M module is one of the industry’s most trusted modules. With stronger resistance against hotspots and excessive temperature, half-cut cells can improve module reliability. The application of multi-busbar cells results in more uniform loads to prevent stress, resulting in better performance even in case of slight cracking. Nowadays the market share of PV modules featuring MBB technology is dominant in the global solar industry.

Higher Return on Investment Thanks to Higher Power Output

This Tallmax M module integrates various technologies like half-cut cells and multi-busbar, with the highest power up to 450W. Application of this Tallmax M module can remarkably reduce the number of modules employed in a power station, thus lowering corresponding cost of supports, cables, construction and land, improving the return on investment.

Higher Return on Investment thanks to Higher Power Output

Tallmax M module with the highest power up to 450W can remarkably reduce the number of modules employed in a power station, thus lowering corresponding cost of supports, cables, construction and land, improving the return on investment.

High Power

  • Up to 450W front power and 20.6% module efficiency with half-cut and MBB (Multi Busbar) technology bringing more BOS savings
  • Lower resistance of half-cut and good reflection effect of MBB ensure high power

High reliability

  • Ensured PID resistance through cell process and module material control
  • Resistant to salt, acid and ammonia
  • Mechanical performance: Up to 5400 Pa positive load and 2400 Pa negative load

High energy generation

  • Excellent IAM and low light performance validated by 3rd party with cell process and module material optimization
  • Lower Temperature Coefficient Pmax(-0.36%) and NMOT bring more energy leading to lower LCOE
  • Better anti-shading performance and lower operating temperature
TSM-450DE17M

Trina TSM-DE17M(II) 455W

  • Peak Power Watts-PMAX (Wp)* : 455
  • Power Output Tolerance-PMAX (W) : 0 ~ +5
  • Maximum Power Voltage-VMPP (V) : 41.2
  • Maximum Power Current-IMPP (A) : 11.06
  • Open Circuit Voltage-VOC (V) : 49.8
  • Short Circuit Current-ISC (A) : 11.61
  • Length(mm) : 1 040
  • Width(mm) : 35
  • Height(mm) : 2 102
  • Weight(Kg) : 24

Trina TSM-DE17M(II) 455W

The Tallmax M product adopts half-cut cell technology. With lower heat and lower working temperature, half-cut cells can increase the power generation per watt. Since half-cut cells reduce internal loss, the working temperature of the module and the junction box declines, thus greatly reducing the probability of hotspots and the damage risk of the whole module.

Based on the special parallel-serial structure, half-cut modules are longitudinally arranged and can thus reduce the loss of generation capacity caused by shading.

High Reliability

The Tallmax M module is one of the industry’s most trusted modules. With stronger resistance against hotspots and excessive temperature, half-cut cells can improve module reliability. The application of multi-busbar cells results in more uniform loads to prevent stress, resulting in better performance even in case of slight cracking. Nowadays the market share of PV modules featuring MBB technology is dominant in the global solar industry.

Higher Return on Investment Thanks to Higher Power Output

This Tallmax M module integrates various technologies like half-cut cells and multi-busbar, with the highest power up to 450W. Application of this Tallmax M module can remarkably reduce the number of modules employed in a power station, thus lowering corresponding cost of supports, cables, construction and land, improving the return on investment.

Higher Return on Investment thanks to Higher Power Output

Tallmax M module with the highest power up to 450W can remarkably reduce the number of modules employed in a power station, thus lowering corresponding cost of supports, cables, construction and land, improving the return on investment.

High Power

  • Up to 450W front power and 20.6% module efficiency with half-cut and MBB (Multi Busbar) technology bringing more BOS savings
  • Lower resistance of half-cut and good reflection effect of MBB ensure high power

High reliability

  • Ensured PID resistance through cell process and module material control
  • Resistant to salt, acid and ammonia
  • Mechanical performance: Up to 5400 Pa positive load and 2400 Pa negative load

High energy generation

  • Excellent IAM and low light performance validated by 3rd party with cell process and module material optimization
  • Lower Temperature Coefficient Pmax(-0.36%) and NMOT bring more energy leading to lower LCOE
  • Better anti-shading performance and lower operating temperature

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