Benefits of Half-Cell
Half Cut cell reduces micro-cracks and hot spot effects in modules.
![](https://mlgw8ytkclxh.i.optimole.com/3wttfrw.MsKU~47046/w:680/h:310/q:75/f:avif/https://gbreenergy.com/wp-content/uploads/2022/06/Gb-Halfcell-benft.png)
![](https://mlgw8ytkclxh.i.optimole.com/3wttfrw.MsKU~47046/w:680/h:310/q:75/f:avif/https://gbreenergy.com/wp-content/uploads/2022/06/Gb-fullcell-benft.png)
Less amount of internal losses
The innovative interconnection design halves the electrical current flowing in each busbar. This reduces the internal losses in half-cut module by 1/4th of the full cell module. This also reduces the module temperature during operation as the losses are reduced.
![](https://mlgw8ytkclxh.i.optimole.com/3wttfrw.MsKU~47046/w:434/h:121/q:75/f:avif/https://gbreenergy.com/wp-content/uploads/2022/07/Hlafcell-electrical-loss.jpg)
Improved Shading Performance
Half Cell design ensures an improved shading response, resulting in higher yields when the module is partially shaded. Shading loss experienced by half-cell modules is much better than conventional modules in certain shading conditions.
![](https://mlgw8ytkclxh.i.optimole.com/3wttfrw.MsKU~47046/w:400/h:331/q:75/f:avif/https://gbreenergy.com/wp-content/uploads/2022/06/GB-solar-energy-sun.gif)
![](https://mlgw8ytkclxh.i.optimole.com/3wttfrw.MsKU~47046/w:296/h:519/q:75/f:avif/https://gbreenergy.com/wp-content/uploads/2022/06/Gb-HALF-CELL.png)
Half Cut-Cell Design gives higher yields due to low internal losses of the cell, low shading loss and low working temperature. All these factors gives
up to +5% power boost.