Add to ORKGSoldering of copper interconnects at ∼220 °C induces residual stresses in the crystalline silicon solar cells. These residual stresses may become detrimental in the context of thinner silicon cells (<180μm) causing cracking, performance loss and failures. In such a scenario a systematic evaluation of these residual stresses considering realistic material properties is required to assess the risk levels. In the present work, soldering induced residual stresses in the back contact c-Si solar cells were evaluated using finite element simulations. Effect of plasticity of the copper interconnects on the cell residual stress was studied. It was observed that the linear elastic material property of interconnect and solder over predicts the cell...
In the manufacturing process of a common solar module, crystalline silicon solar cells are interconn...
AbstractWe compare the thermomechanical stresses in solar cell interconnections based on electricall...
We compare the thermomechanical stresses in solar cell interconnections based on electrically conduc...
Soldering of copper interconnects at ∼220 °C induces residual stresses in the crystalline silicon so...
Soldering of copper interconnects at ∼220 °C induces residual stresses in the crystalline silicon so...
The interconnection of silicon solar cells by soldering causes thermomechanical stress due to differ...
The interconnection of silicon solar cells is commonly realized by soldering copper ribbons or wires...
Fracture of silicon crystalline solar cells has recently been observed in increasing percentages esp...
Fracture of silicon crystalline solar cells has recently been observed in increasing percentages esp...
An important process step in manufacturing silicon based photovoltaic solar panels is the electrical...
The soldering of solar cell strings is a critical step in the production of photovoltaic modules. Te...
The most advanced production lines for H-pattern poly-crystalline solar cells use wafers of less tha...
One of the driving factors for a steady reduction in wafer and cell thickness is the present shortag...
AbstractThis case study deals with the assessment of different metallization layouts on the reliabil...
Finite element analysis (FEA) has been carried out with the aim of understanding the thermal deforma...
In the manufacturing process of a common solar module, crystalline silicon solar cells are interconn...
AbstractWe compare the thermomechanical stresses in solar cell interconnections based on electricall...
We compare the thermomechanical stresses in solar cell interconnections based on electrically conduc...
Soldering of copper interconnects at ∼220 °C induces residual stresses in the crystalline silicon so...
Soldering of copper interconnects at ∼220 °C induces residual stresses in the crystalline silicon so...
The interconnection of silicon solar cells by soldering causes thermomechanical stress due to differ...
The interconnection of silicon solar cells is commonly realized by soldering copper ribbons or wires...
Fracture of silicon crystalline solar cells has recently been observed in increasing percentages esp...
Fracture of silicon crystalline solar cells has recently been observed in increasing percentages esp...
An important process step in manufacturing silicon based photovoltaic solar panels is the electrical...
The soldering of solar cell strings is a critical step in the production of photovoltaic modules. Te...
The most advanced production lines for H-pattern poly-crystalline solar cells use wafers of less tha...
One of the driving factors for a steady reduction in wafer and cell thickness is the present shortag...
AbstractThis case study deals with the assessment of different metallization layouts on the reliabil...
Finite element analysis (FEA) has been carried out with the aim of understanding the thermal deforma...
In the manufacturing process of a common solar module, crystalline silicon solar cells are interconn...
AbstractWe compare the thermomechanical stresses in solar cell interconnections based on electricall...
We compare the thermomechanical stresses in solar cell interconnections based on electrically conduc...