Monocrystalline Solar Panels

Yingli Solar is on the forefront of solar innovation.

Our new PANDA-series solar panels use n-doped silicon instead of the industry-standard p-type silicon. Key advantages of n-type modules include insensitivity to metallic impurities, a more efficient conversion of infrared light into electricity, and a lower initial degradation rate. Combined with high transmission glass, the result is a highly efficient, next-generation solar panel that delivers impressive performance.

Yingli PANDA was first realized through an in-house collaboration between the Energy Research Center of the Netherlands (ECN) and Amtech Systems, Inc., two of the world’s leaders in solar power technology. Today’s average cell efficiency on commercial production lines exceeds 19.8% with up to 17.2% module conversion efficiency.

Yingli PANDA is ideal for commercial or residential projects where energy output is essential.

Learn about the benefits of PANDA technology. Download the flyer.

PANDA BIFACIAL 60CF

Dimensions

1666mm / 998mm / 32mm

Module Type
  • YL290CG2530F-1, with peak power of 290W
  • YL285CG2530F-1, with peak power of 285W
  • YL280CG2530F-1, with peak power of 280W
  • YL275CG2530F-1, with peak power of 275W
  • YL270CG2530F-1, with peak power of 270W

PANDA BIFACIAL modules generate power from the front as well as from the back side. Together with the cutting-edge PANDA N-type crystalline silicon solar cells, which wake up earlier than conventional P-type and go to sleep later, the energy yield can be increased by 10- 30%.

PANDA BIFACIAL 60CL

Dimensions

1660mm / 992 mm / 6 mm

Module Type
  • YL290CG2530L-1, with peak power of 290W
  • YL285CG2530L-1, with peak power of 285W
  • YL280CG2530L-1, with peak power of 280W
  • YL275CG2530L-1, with peak power of 275W
  • YL270CG2530L-1, with peak power of 270W

PANDA BIFACIAL modules generate power from the front as well as from the back side. Together with the cutting-edge PANDA N-type crystalline silicon solar cells, which wake up earlier than conventional P-type and go to sleep later, the energy yield can be increased by 10- 30%.

PANDA BIFACIAL 144HCF

Dimensions

1956mm / 1046mm / 32mm

Module Type
  • YL360CG2536F-2 1/2, with peak power of 360W
  • YL355CG2536F-2 1/2, with peak power of 355W
  • YL350CG2536F-2 1/2, with peak power of 350W
  • YL345CG2536F-2 1/2, with peak power of 345W
  • YL340CG2536F-2 1/2, with peak power of 340W

PANDA BIFACIAL modules generate power from the front as well as from the back side. Together with the cutting-edge PANDA N-type crystalline silicon solar cells, which wake up earlier than conventional P-type and go to sleep later, the energy yield can be increased by 10- 30%. 5 Bus-bar half cells and series & parallel electrical structure can reduce CTM loss and increase module output power.

Downloads

Datasheet (INT)

PANDA BIFACIAL 144HCL

Dimensions

1950mm / 1040mm / 6mm

Module Type
  • YL360CG2536L-2 1/2, with peak power of 360W
  • YL355CG2536L-2 1/2, with peak power of 355W
  • YL350CG2536L-2 1/2, with peak power of 350W
  • YL345CG2536L-2 1/2, with peak power of 345W
  • YL340CG2536L-2 1/2, with peak power of 340W

PANDA BIFACIAL modules generate power from the front as well as from the back side. Together with the cutting-edge PANDA N-type crystalline silicon solar cells, which wake up earlier than conventional P-type and go to sleep later, the energy yield can be increased by 10- 30%. 5 Bus-bar half cells and series & parallel electrical structure can reduce CTM loss and increase module output power.

Downloads

Datasheet (INT)

YLM 60 Cell

Dimensions

1650mm / 992mm / 35mm

Module Type
  • YL290D-30b, with peak power of 290 W
  • YL285D-30b, with peak power of 285 W
  • YL280D-30b, with peak power of 280 W
  • YL275D-30b, with peak power of 275 W
  • YL270D-30b, with peak power of 270 W

The standard-sized module of the series. With an efficiency of up to 17.9% the YLM 60 Cell is ideal for all types of applications where efficiency is essential, ranging from residential and commercial projects to large-scale power plants.

YLM 72 Cell

Dimensions

1960mm / 992mm / 40mm

Module Type
  • YL335D-36b, with peak power of 335 W
  • YL330D-36b, with peak power of 330 W
  • YL325D-36b, with peak power of 325 W
  • YL320D-36b, with peak power of 320 W
  • YL315D-36b, with peak power of 315 W
  • YL310D-36b, with peak power of 310 W

The workhorse of our monocrystalline product line, the YLM 72 Cell solar panel is the largest in our portfolio and is ideal for large-scale power plants.

This larger version facilitates cost savings at a system level e.g. for handling and installation, with the reassurance of proven Yingli Solar quality.

YLM 60 Cell HSF Smart

Dimensions

1680mm / 992mm / 35mm

Module Type
  • YL290DD-30b, with peak power of 290W
  • YL285DD-30b, with peak power of 285W
  • YL280DD-30b, with peak power of 280W
  • YL275DD-30b, with peak power of 275W
  • YL270DD-30b, with peak power of 270W

The circuit design of YLM series modules developed by Yingli has been optimized. Every piece of cells parallels a diode, when a cell is covered by shade, the paralleled diode can bypass this cell, thus avoide hot spot, and can retain the maximum power output. HSF module can be used in more shadowy and complex areas. Meanwhile, in land scarcity areas, the distance between modules has been shortened to increase the installed capacity.

YLM 72 Cell HSF Smart

Dimensions

2000mm / 992mm / 40mm

Module Type
  • YL340DD-30b, with peak power of 340W
  • YL335DD-30b, with peak power of 335W
  • YL330DD-30b, with peak power of 330W
  • YL325DD-30b, with peak power of 325W
  • YL320DD-30b, with peak power of 320W
  • YL315DD-30b, with peak power of 315W

The circuit design of YLM series modules developed by Yingli has been optimized. Every piece of cells parallels a diode, when a cell is covered by shade, the paralleled diode can bypass this cell, thus avoide hot spot, and can retain the maximum power output. HSF module can be used in more shadowy and complex areas. Meanwhile, in land scarcity areas, the distance between modules has been shortened to increase the installed capacity.